论文信息 - Symbolic construction of dynamic mixed integer programs for power system management

Symbolic construction of dynamic mixed integer programs for power system management

In this presentation, we discuss a symbolic tool, implemented in Mathematica/sup /spl copy//, that converts a hybrid automaton model of a power system into either a mixed logical dynamic system' (MLD) or a 'dynamic mixed integer program' (DMIP). The tool, converts any logical specification into mixed-integer formulas (IP formulas). For example the transition specification for the automaton is converted into a set of inequalities involving Boolean variables. The IP formulas can be used in decision computations using mixed integer programs or mixed integer dynamic programming. An example is given involving controller design for a power conditioning system.

C. Teolis | Dagmar Niebur | Harry G. Kwatny | Edoe Mensah

[1] Ian Dobson,et al. Towards a theory of voltage collapse in electric power systems , 1989 .

[2] Leon Y. Bahar,et al. Static bifurcations in electric power networks: Loss of steady-state stability and voltage collapse , 1986 .

[3] Manfred Morari,et al. Hybrid emergency voltage control in power systems , 2003, 2003 European Control Conference (ECC).

[4] Alberto Bemporad,et al. Control of systems integrating logic, dynamics, and constraints , 1999, Autom..